Dual-purpose electric scooter

ABSTRACT

The present disclosure relates to a dual-purpose electric scooter. The dual-purpose electric scooter includes a deck assembly, a handlebar assembly detachably connected with the deck assembly, two front wheels installed on a bottom side of the deck assembly, and a back wheel installed on the bottom side of the deck assembly. The back wheel is a motor integrated wheel and configured to drive the electric scooter move.

TECHNICAL FIELD

The present disclosure relates to the field of scooters, in particularto a dual-purpose electric scooter.

BACKGROUND

Scooter is a fashionable sports leisure tool, which is popular amongchildren. However, as for a traditional scooter, children can only holda handle of the scooter and ride it in a foot-driving mode, it is hardto get good user experience.

SUMMARY

The present disclosure provides a dual-purpose electric scooter.

The present disclosure adopts the following technical solution: adual-purpose electric scooter including a deck assembly; a handlebarassembly detachably connected with the deck assembly; two front wheelsinstalled on a bottom side of the deck assembly; and a back wheelinstalled on the bottom side of the deck assembly, and the back wheelbeing a motor integrated wheel and configured to drive the electricscooter move.

Further, the deck assembly comprises a first mounting portion and afirst fastener located at a side wall of the first mounting portion, thehandlebar assembly comprises a handle, an upright rod and secondfastener, an end of the upright rod is connected with the handle, thesecond fastener is disposed at the other end of the upright rod, whenthe other end of the upright rod is disposed in the first mountingportion and the first fastener is fixed with the second fastener, thehandlebar assembly is connected with the deck assembly, when the firstfastener and the second fastener separate from each other, the other endof the upright rod is able to be separated from the deck assembly.

Further, the first fastener is a first notch located at the side wall ofthe first mounting portion, the second fastener comprises a firstelastic portion located in the other end of the upright rod and a firstprotrusion connected with the first elastic portion, when the firstprotrusion is pressed by a first external force, the first elasticportion is compressed to pull the first protrusion into the upright rodand separate from the first notch, when the first external force isremoved, a first elastic force released by the first elastic portiondrives the first protrusion protrude from the upright rod so as to fixinto the first notch.

Further, the second fastener comprises a second elastic portion locatedin the other end of the upright rod and a second protrusion connectedwith the second elastic portion, the second protrusion is configured toabuts against the side wall of the first mounting portion.

Further, the first elastic portion comprises a first V-shaped structureand a first extending part connected with an end of the first V-shapedstructure, the first protrusion is disposed on the first extending part,the second elastic portion comprises a second V-shaped structure and asecond extending part connected with an end of the second V-shapedstructure, a first opening of the first V-shaped structure and a secondopening of the second V-shaped structure are towards to a bottom side ofthe deck assembly, the second V-shaped structure is located at an upperside of the first V-shaped structure and abuts the first V-shapedstructure, the second protrusion is disposed on the second extendingpart.

Further, the handlebar assembly comprises a fixing cover located at abottom side of the second fastener and fixed on the other end of theupright rod, the fixing cover comprises a cover body and a side plateconnected with the cover body, the side plate abuts an outer surface ofthe other end of the upright rod and comprises a second notch, and thefirst protrusion passes through the second notch.

Further, the dual-purpose electric scooter comprises a cover plateconfigured to detachably connect with the deck assembly and cover thefirst mounting portion when the handlebar assembly separate from thedeck assembly.

Further, the deck assembly comprises an upper shell and an bottom shellconnected with the upper shell, the dual-purpose electric scootercomprises a battery located between the upper shell and the bottom shelland supplies the motor integrated wheel.

Further, the dual-purpose electric scooter comprises a first switchelement and a control circuit board, the control circuit board iselectrically connected with the first switch element, the battery andthe motor integrated wheel, the first switch element comprises a firstpedal mounted on the upper shell and a first trigger portion disposed onthe control circuit board, when the first pedal is stamped by a foot,the first trigger portion is triggered and generates a first switchsignal, and the control circuit board controls the motor integratedwheel rotate according to the first switch signal.

Further, the upper shell comprises a second mounting portion located ata back side of the handlebar assembly and adjacent to the handlebarassembly, the first pedal is installed in the second mounting portion.

Further, the dual-purpose electric scooter comprises a second switchelement electrically connected with the control circuit board, thesecond switch element comprises a second pedal mounted on the uppershell and a brake element electrically connected with the controlcircuit board, when the second pedal is stamped by a foot, the brakeelement is triggered and generates a second switch signal, and thecontrol circuit board controls the motor integrated wheel stop rotatingaccording to the second switch signal.

Further, the upper shell comprises a third mounting portion located atthe an end far away from the handlebar assembly and adjacent to the backwheel, the second pedal is installed in the third mounting portion.

The present disclosure adopts the following technical solution: adual-purpose electric scooter comprising a deck assembly; a handlebarassembly detachably connected with the deck assembly; and at least threewheels installed on a bottom side of the deck assembly, one of the atleast two wheels being a motor integrated wheel and configured to drivethe electric scooter move.

Further, the deck assembly comprises a first mounting portion and afirst fastener located at a side wall of the first mounting portion, thehandlebar assembly comprises a handle, an upright rod and secondfastener, an end of the upright rod is connected with the handle, thesecond fastener is disposed at the other end of the upright rod, whenthe other end of the upright rod is disposed in the first mountingportion and the first fastener is fixed with the second fastener, thehandlebar assembly is connected with the deck assembly, when the firstfastener and the second fastener separate from each other, the other endof the upright rod is able to be separated from the deck assembly.

Further, the first fastener is a first notch located at the side wall ofthe first mounting portion, the second fastener comprises a firstelastic portion located in the other end of the upright rod and a firstprotrusion connected with the first elastic portion, when the firstprotrusion is pressed by a first external force, the first elasticportion is compressed to pull the first protrusion into the upright rodand separate from the first notch, when the first external force isremoved, a first elastic force released by the first elastic portiondrives the first protrusion protrude from the upright rod so as to fixinto the first notch.

Further, the second fastener comprises a second elastic portion locatedin the other end of the upright rod and a second protrusion connectedwith the second elastic portion, the second protrusion is configured toabuts against the side wall of the first mounting portion.

Further, the first elastic portion comprises a first V-shaped structureand a first extending part connected with an end of the first V-shapedstructure, the first protrusion is disposed on the first extending part,the second elastic portion comprises a second V-shaped structure and asecond extending part connected with an end of the second V-shapedstructure, a first opening of the first V-shaped structure and a secondopening of the second V-shaped structure are towards to a bottom side ofthe deck assembly, the second V-shaped structure is located at an upperside of the first V-shaped structure and abuts the first V-shapedstructure, the second protrusion is disposed on the second extendingpart, the handlebar assembly comprises a fixing cover located at abottom side of the second fastener and fixed on the other end of theupright rod, the fixing cover comprises a cover body and a side plateconnected with the cover body, the side plate abuts an outer surface ofthe other end of the upright rod and comprises a second notch, and thefirst protrusion passes through the second notch.

Further, the dual-purpose electric scooter comprises a cover plateconfigured to detachably connect with the deck assembly and cover thefirst mounting portion when the handlebar assembly separate from thedeck assembly.

Further, the deck assembly comprises an upper shell and an bottom shellconnected with the upper shell, the dual-purpose electric scootercomprises a battery located between the upper shell and the bottom shelland supplies the motor integrated wheel, the dual-purpose electricscooter comprises a first switch element and a control circuit board,the control circuit board is electrically connected with the firstswitch element, the battery and the motor integrated wheel, the firstswitch element comprises a first pedal mounted on the upper shell and afirst trigger portion disposed on the control circuit board, when thefirst pedal is stamped by a foot, the first trigger portion is triggeredand generates a first switch signal, and the control circuit boardcontrols the motor integrated wheel rotate according to the first switchsignal

Further, the dual-purpose electric scooter comprises a second switchelement electrically connected with the control circuit board, thesecond switch element comprises a second pedal mounted on the uppershell and a brake element electrically connected with the controlcircuit board, when the second pedal is stamped by a foot, the brakeelement is triggered and generates a second switch signal, and thecontrol circuit board controls the motor integrated wheel stop rotatingaccording to the second switch signal.

The present disclosure has the beneficial effects: when the other end ofthe upright rod is disposed in the first mounting portion and the firstfastener is fixed with the second fastener, the handlebar assembly isconnected with the deck assembly, and a user can hold a handlebarassembly of the scooter and ride the scooter in a foot-driving mode.When the first fastener and the second fastener separate from eachother, the other end of the upright rod is able to be separated from thedeck assembly, and the user can ride the scooter in an electric mode.The scooter can be ridden in the two modes and the user can get gooduser experience.

BRIEF DESCRIPTION OF THE DRAWINGS

Implementations of the present disclosure will now be described, by wayof embodiment, with reference to the attached figures. It should beunderstood, the drawings are shown for illustrative purpose only, forordinary person skilled in the art, other drawings obtained from thesedrawings without paying creative labor by an ordinary person skilled inthe art should be within scope of the present disclosure.

FIG. 1 is a schematic view of a dual-purpose electric scooter accordingto an embodiment of the present disclosure in a foot-driving mode.

FIG. 2 is another schematic view of the dual-purpose electric scooter ofFIG. 1 .

FIG. 3 is an exposed view of the dual-purpose electric scooter of FIG. 1.

FIG. 4 is another exposed view of the dual-purpose electric scooter ofFIG. 1 .

FIG. 5 is a schematic view of a second fastener of the handlebarassembly of the scooter of FIG. 1 .

FIG. 6 is a schematic view of the dual-purpose electric scooter of FIG.1 in an electric mode.

FIG. 7 is a circuit block diagram of the dual-purpose electric scooterof FIG. 1 .

DETAILED DESCRIPTION OF THE EMBODIMENTS

It will be appreciated that for simplicity and clarity of illustration,where appropriate, reference numerals have been repeated among thedifferent figures to indicate corresponding or analogous elements. Inaddition, numerous specific details are set forth in order to provide athorough understanding of the exemplary embodiments described herein.However, it will be understood by those of ordinary skill in the artthat the exemplary embodiments described herein may be practiced withoutthese specific details. In other instances, methods, procedures, andcomponents have not been described in detail so as not to obscure therelated relevant feature being described. Also, the description is notto be considered as limiting the scope of the exemplary embodimentsdescribed herein. The drawings are not necessarily to scale and theproportions of certain parts may be exaggerated to better illustratedetails and features of the present disclosure.

The term “comprising” when utilized, means “including, but notnecessarily limited to”; it specifically indicates open-ended inclusionor membership in the so-described combination, group, series, and thelike. The disclosure is illustrated by way of example and not by way oflimitation in the figures of the accompanying drawings in which likereferences indicate similar elements. It should be noted that referencesto “an” or “one” embodiment in this disclosure are not necessarily tothe same embodiment, and such references can mean “at least one”. Inaddition, the terms “first” and “second” are used for descriptivepurposes only and cannot be understood as indicating or implyingrelative importance or implying the number of indicated technicalfeatures. Thus, the features defined as “first” and “second” mayexplicitly or implicitly include one or more of the said features. Inthe description of embodiments of the application, “a plurality of”means two or more, unless otherwise specifically defined.

Referring to FIG. 1 to FIG. 5 , a dual-purpose electric scooter 10includes a deck assembly 20, a handlebar assembly 30 detachablyconnected with the deck assembly 20, two front wheels 40 installed on abottom side of the deck assembly 20; and a back wheel 50 installed onthe bottom side of the deck assembly 20. The back wheel 50 is a motorintegrated wheel and configured to drive the electric scooter 10 move inan electric mode. The motor integrated wheel includes a wheel and amotor inside within the wheel, and when the motor is provides a drivingsignal, it can rotate to drive the electric scooter 10 move.

The deck assembly 20 includes a first mounting portion 21 and a firstfastener 22 located at a side wall 211 of the first mounting portion 21.The first mounting portion 21 includes a groove. The handlebar assembly30 includes a handle 31, an upright rod 32 and second fastener 33. Anend of the upright rod 32 is connected with the handle 31. The secondfastener 33 is disposed at the other end of the upright rod 32.

When the other end of the upright rod 32 is disposed in the firstmounting portion 21 and the first fastener 22 is fixed with the secondfastener 33, the handlebar assembly 30 is connected with the deckassembly 20. Thus, a user can hold a handlebar assembly 30 of thescooter 10 and ride the scooter 10 in a foot-driving mode.

When the first fastener 22 and the second fastener 33 separate from eachother, the other end of the upright rod 32 is able to be separated fromthe deck assembly 20. Thus, the user can ride the scooter 10 in anelectric mode.

In the embodiment, the first fastener 22 is a first notch located at theside wall of the first mounting portion 21. The second fastener 33includes a first elastic portion 331 located in the other end of theupright rod 32 and a first protrusion 332 connected with the firstelastic portion 331. When the first protrusion 332 is pressed by a firstexternal force, the first elastic portion 331 is compressed to pull thefirst protrusion 332 into the upright rod 32 and separate from the firstnotch of the first mounting portion 21. When the first external force isremoved, a first elastic force released by the first elastic portion 331drives the first protrusion 332 protrude from the upright rod 32 so asto fix into the first notch of the first mounting portion 21.

Further, the second fastener 33 a second elastic portion 333 located inthe other end of the upright rod 32 and a second protrusion 334connected with the second elastic portion 333, the second protrusion 334is configured to abuts against the side wall of the first mountingportion 21.

The first elastic portion 331 includes a first V-shaped structure 3311and a first extending part 3312 connected with an end of the firstV-shaped structure 3311. The first protrusion 332 is disposed on thefirst extending part 3312. The second elastic portion 333 includes asecond V-shaped structure 3331 and a second extending part 3332connected with an end of the second V-shaped structure 3331. A firstopening of the first V-shaped structure 3311 and a second opening of thesecond V-shaped structure 3331 are towards to a bottom side of the deckassembly 20. The second V-shaped structure 3331 is located at an upperside of the first V-shaped structure 3311 and abuts the first V-shapedstructure 3311, and the second protrusion 334 is disposed on the secondextending part 3332.

The handlebar assembly 20 includes a fixing cover 25 located at a bottomside of the second fastener 33 and fixed on the other end of the uprightrod 32. The fixing cover 25 includes a cover body 251 and a side plate252 connected with the cover body 251. The side plate 252 abuts an outersurface of the other end of the upright rod 32 and includes a secondnotch, and the first protrusion 332 passes through the second notch ofthe side plate 252.

Referring to FIG. 6 , the dual-purpose electric scooter 10 furtherincludes a cover plate 60, and the cover plate 60 is configured todetachably connect with the deck assembly 20 and cover the firstmounting portion 21 when the handlebar assembly 30 separate from thedeck assembly 20.

The deck assembly 20 further includes an upper shell 23 and an bottomshell 24 connected with the upper shell 23. The dual-purpose electricscooter 10 further a battery 70 located between the upper shell 23 andthe bottom shell 24 and supplies the back wheel 50.

Referring to FIG. 7 , the dual-purpose electric scooter 10 furtherincludes a first switch element 81 and a control circuit board 90. Thecontrol circuit board 90 is electrically connected with the first switchelement 81, the battery 70 and the motor integrated wheel (the backwheel 50). The first switch element 81 includes a first pedal 811mounted on the upper shell 23 and a first trigger portion 812 disposedon the control circuit board 90. When the first pedal 811 is stamped bya foot, the first trigger portion 812 is triggered and generates a firstswitch signal, and the control circuit board 90 controls the motorintegrated wheel (the back wheel 50) rotate according to the firstswitch signal.

Further, the upper shell 23 includes a second mounting portion 231located at a back side of the handlebar assembly 30 and adjacent to thehandlebar assembly 30, the first pedal 811 is installed in the secondmounting portion 231. The second mounting portion 231 may include amounting hole.

The dual-purpose electric scooter 10 further a second switch element 82electrically connected with the control circuit board 90. The secondswitch element 82 includes a second pedal 821 mounted on the upper shell23 and a brake element 822 electrically connected with the controlcircuit board 90. When the second pedal 821 is stamped by a foot, thebrake element 822 is triggered and generates a second switch signal, andthe control circuit board 90 controls the motor integrated wheel (theback wheel 50) stop rotating according to the second switch signal.

Further, the upper shell 23 includes a third mounting portion 232located at the an end far away from the handlebar assembly 30 andadjacent to the back wheel 50, the second pedal 821 is installed in thethird mounting portion 232. The third mounting portion 232 may include amounting hole.

The present disclosure has the beneficial effects: when the other end ofthe upright rod 32 is disposed in the first mounting portion 21 and thefirst fastener 22 is fixed with the second fastener 33, the handlebarassembly 30 is connected with the deck assembly 20, and a user can holdthe handlebar assembly 30 of the scooter 10 and ride the scooter 10 in afoot-driving mode. When the first fastener 22 and the second fastener 33separate from each other, the other end of the upright rod 32 is able tobe separated from the deck assembly 20, and the user can ride thescooter 10 in an electric mode. The scooter 10 can be ridden in the twomodes and the user can get good user experience.

The above description only describes embodiments of the presentdisclosure, and is not intended to limit the present disclosure, variousmodifications and changes can be made to the present disclosure. Anymodifications, equivalent substitutions, improvements, etc. made withinthe spirit and scope of the present disclosure are intended to beincluded within the scope of the present disclosure.

What is claimed is:
 1. A dual-purpose electric scooter, comprising adeck assembly; a handlebar assembly detachably connected with the deckassembly; two front wheels installed on a bottom side of the deckassembly; and a back wheel installed on the bottom side of the deckassembly, and the back wheel being a motor integrated wheel andconfigured to drive the electric scooter move, wherein the deck assemblycomprises a first mounting portion and a first fastener located at aside wall of the first mounting portion, the handlebar assemblycomprises a handle, an upright rod and second fastener, an end of theupright rod is connected with the handle, the second fastener isdisposed at the other end of the upright rod, when the other end of theupright rod is disposed in the first mounting portion and the firstfastener is fixed with the second fastener, the handlebar assembly isconnected with the deck assembly, when the first fastener and the secondfastener separate from each other, the other end of the upright rod isable to be separated from the deck assembly.
 2. The dual-purposeelectric scooter according to claim 1, wherein the first fastener is afirst notch located at the side wall of the first mounting portion, thesecond fastener comprises a first elastic portion located in the otherend of the upright rod and a first protrusion connected with the firstelastic portion, when the first protrusion is pressed by a firstexternal force, the first elastic portion is compressed to pull thefirst protrusion into the upright rod and separate from the first notch,when the first external force is removed, a first elastic force releasedby the first elastic portion drives the first protrusion protrude fromthe upright rod so as to fix into the first notch.
 3. The dual-purposeelectric scooter according to claim 2, wherein the second fastenercomprises a second elastic portion located in the other end of theupright rod and a second protrusion connected with the second elasticportion, the second protrusion is configured to abuts against the sidewall of the first mounting portion.
 4. The dual-purpose electric scooteraccording to claim 3, wherein the first elastic portion comprises afirst V-shaped structure and a first extending part connected with anend of the first V-shaped structure, the first protrusion is disposed onthe first extending part, the second elastic portion comprises a secondV-shaped structure and a second extending part connected with an end ofthe second V-shaped structure, a first opening of the first V-shapedstructure and a second opening of the second V-shaped structure aretowards to a bottom side of the deck assembly, the second V-shapedstructure is located at an upper side of the first V-shaped structureand abuts the first V-shaped structure, the second protrusion isdisposed on the second extending part.
 5. The dual-purpose electricscooter according to claim 3, wherein the handlebar assembly comprises afixing cover located at a bottom side of the second fastener and fixedon the other end of the upright rod, the fixing cover comprises a coverbody and a side plate connected with the cover body, the side plateabuts an outer surface of the other end of the upright rod and comprisesa second notch, and the first protrusion passes through the secondnotch.
 6. The dual-purpose electric scooter according to claim 1,wherein the dual-purpose electric scooter comprises a cover plateconfigured to detachably connect with the deck assembly and cover thefirst mounting portion when the handlebar assembly separate from thedeck assembly.
 7. The dual-purpose electric scooter according to claim1, wherein the deck assembly comprises an upper shell and an bottomshell connected with the upper shell, the dual-purpose electric scootercomprises a battery located between the upper shell and the bottom shelland supplies the motor integrated wheel.
 8. The dual-purpose electricscooter according to claim 7, wherein the dual-purpose electric scootercomprises a first switch element and a control circuit board, thecontrol circuit board is electrically connected with the first switchelement, the battery and the motor integrated wheel, the first switchelement comprises a first pedal mounted on the upper shell and a firsttrigger portion disposed on the control circuit board, when the firstpedal is stamped by a foot, the first trigger portion is triggered andgenerates a first switch signal, and the control circuit board controlsthe motor integrated wheel rotate according to the first switch signal.9. The dual-purpose electric scooter according to claim 8, wherein theupper shell comprises a second mounting portion located at a back sideof the handlebar assembly and adjacent to the handlebar assembly, thefirst pedal is installed in the second mounting portion.
 10. Thedual-purpose electric scooter according to claim 7, wherein thedual-purpose electric scooter comprises a second switch elementelectrically connected with the control circuit board, the second switchelement comprises a second pedal mounted on the upper shell and a brakeelement electrically connected with the control circuit board, when thesecond pedal is stamped by a foot, the brake element is triggered andgenerates a second switch signal, and the control circuit board controlsthe motor integrated wheel stop rotating according to the second switchsignal.
 11. The dual-purpose electric scooter according to claim 10,wherein the upper shell comprises a third mounting portion located atthe an end far away from the handlebar assembly and adjacent to the backwheel, the second pedal is installed in the third mounting portion. 12.A dual-purpose electric scooter, comprising a deck assembly; a handlebarassembly detachably connected with the deck assembly; and at least threewheels installed on a bottom side of the deck assembly, one of the atleast two wheels being a motor integrated wheel and configured to drivethe electric scooter move, wherein the deck assembly comprises an uppershell and an bottom shell connected with the upper shell, thedual-purpose electric scooter comprises a battery located between theupper shell and the bottom shell and supplies the motor integratedwheel, the dual-purpose electric scooter comprises a first switchelement and a control circuit board, the control circuit board iselectrically connected with the first switch element, the battery andthe motor integrated wheel, the first switch element comprises a firstpedal mounted on the upper shell and a first trigger portion disposed onthe control circuit board, when the first pedal is stamped by a foot,the first trigger portion is triggered and generates a first switchsignal, and the control circuit board controls the motor integratedwheel rotate according to the first switch signal.
 13. The dual-purposeelectric scooter according to claim 12, wherein the deck assemblycomprises a first mounting portion and a first fastener located at aside wall of the first mounting portion, the handlebar assemblycomprises a handle, an upright rod and second fastener, an end of theupright rod is connected with the handle, the second fastener isdisposed at the other end of the upright rod, when the other end of theupright rod is disposed in the first mounting portion and the firstfastener is fixed with the second fastener, the handlebar assembly isconnected with the deck assembly, when the first fastener and the secondfastener separate from each other, the other end of the upright rod isable to be separated from the deck assembly.
 14. The dual-purposeelectric scooter according to claim 13, wherein the first fastener is afirst notch located at the side wall of the first mounting portion, thesecond fastener comprises a first elastic portion located in the otherend of the upright rod and a first protrusion connected with the firstelastic portion, when the first protrusion is pressed by a firstexternal force, the first elastic portion is compressed to pull thefirst protrusion into the upright rod and separate from the first notch,when the first external force is removed, a first elastic force releasedby the first elastic portion drives the first protrusion protrude fromthe upright rod so as to fix into the first notch.
 15. The dual-purposeelectric scooter according to claim 14, wherein the second fastenercomprises a second elastic portion located in the other end of theupright rod and a second protrusion connected with the second elasticportion, the second protrusion is configured to abuts against the sidewall of the first mounting portion.
 16. The dual-purpose electricscooter according to claim 15, wherein the first elastic portioncomprises a first V-shaped structure and a first extending partconnected with an end of the first V-shaped structure, the firstprotrusion is disposed on the first extending part, the second elasticportion comprises a second V-shaped structure and a second extendingpart connected with an end of the second V-shaped structure, a firstopening of the first V-shaped structure and a second opening of thesecond V-shaped structure are towards to a bottom side of the deckassembly, the second V-shaped structure is located at an upper side ofthe first V-shaped structure and abuts the first V-shaped structure, thesecond protrusion is disposed on the second extending part, thehandlebar assembly comprises a fixing cover located at a bottom side ofthe second fastener and fixed on the other end of the upright rod, thefixing cover comprises a cover body and a side plate connected with thecover body, the side plate abuts an outer surface of the other end ofthe upright rod and comprises a second notch, and the first protrusionpasses through the second notch.
 17. The dual-purpose electric scooteraccording to claim 12, wherein the dual-purpose electric scootercomprises a cover plate configured to detachably connect with the deckassembly and cover the first mounting portion when the handlebarassembly separate from the deck assembly.
 18. The dual-purpose electricscooter according to claim 10, wherein the dual-purpose electric scootercomprises a second switch element electrically connected with thecontrol circuit board, the second switch element comprises a secondpedal mounted on the upper shell and a brake element electricallyconnected with the control circuit board, when the second pedal isstamped by a foot, the brake element is triggered and generates a secondswitch signal, and the control circuit board controls the motorintegrated wheel stop rotating according to the second switch signal.19. A dual-purpose electric scooter, comprising a deck assembly; ahandlebar assembly detachably connected with the deck assembly; and atleast three wheels installed on a bottom side of the deck assembly, oneof the at least two wheels being a motor integrated wheel and configuredto drive the electric scooter move, wherein the dual-purpose electricscooter comprises a cover plate configured to detachably connect withthe deck assembly and cover the first mounting portion when thehandlebar assembly separate from the deck assembly.